scale of wind force

简明释义

风级

英英释义

例句

1.The local news station reported that the winds reached a scale of wind force 风力等级 of 7 during the hurricane.

当地新闻台报道，飓风期间风速达到了风力等级scale of wind force 7。

2.According to the scale of wind force 风力等级, a level 5 wind can cause significant damage to buildings.

根据风力等级scale of wind force，5级风可以对建筑物造成严重损坏。

3.Sailors must always check the scale of wind force 风力等级 before setting out to sea.

水手在出海前必须检查风力等级scale of wind force。

4.The meteorologist explained the scale of wind force 风力等级 to help us understand how strong the storm would be.

气象学家解释了风力等级scale of wind force，以帮助我们理解风暴的强度。

5.Understanding the scale of wind force 风力等级 is crucial for pilots when flying in turbulent conditions.

了解风力等级scale of wind force对于飞行员在颠簸条件下飞行至关重要。

作文

Understanding the natural forces that shape our environment is crucial for both safety and scientific inquiry. One such force is wind, which can vary dramatically in strength and impact. The scale of wind force is a systematic way to measure and categorize the intensity of wind. This scale is not just a scientific tool; it has practical implications for meteorology, aviation, maritime activities, and even construction. The most commonly used system for measuring wind force is the Beaufort Scale, developed by Sir Francis Beaufort in the early 19th century. This scale ranges from 0 to 12, where 0 indicates calm conditions and 12 signifies a hurricane. Each level on the scale of wind force corresponds to specific observable effects on the environment. For instance, at level 3, known as a 'gentle breeze,' leaves rustle, and small branches move. In contrast, at level 8, or 'gale,' whole trees may sway, and walking becomes difficult. Understanding the scale of wind force is essential for various sectors. In agriculture, farmers must consider wind strength when planning planting and harvesting. Strong winds can damage crops and affect yield. Similarly, in aviation, pilots rely on accurate wind force measurements to ensure safe takeoffs and landings. Wind shear, a sudden change in wind speed or direction, can pose serious risks during flight. Therefore, understanding the scale of wind force helps pilots make informed decisions. Maritime operations also depend heavily on wind measurements. Sailors and fishermen use the scale of wind force to determine the best conditions for sailing or fishing. Knowing the wind's strength can prevent accidents and ensure safety at sea. For instance, a strong gale can turn a simple fishing trip into a life-threatening situation. Thus, understanding the scale of wind force is vital for anyone who spends time on the water. In construction and architecture, engineers must account for wind loads when designing buildings. Structures must withstand various wind forces, especially in areas prone to storms. The scale of wind force provides guidelines for designing buildings that can endure high winds without compromising safety. This consideration is particularly important in coastal regions, where hurricanes can bring devastating winds. Moreover, the scale of wind force plays a significant role in climate science. Understanding how wind patterns change over time can help scientists predict weather events and study climate change. For example, changes in wind strength and direction can influence ocean currents, which in turn affect global temperatures and weather patterns. By studying the scale of wind force, researchers can gain insights into these complex systems. In conclusion, the scale of wind force is more than just a measurement; it is a critical tool that impacts various aspects of life, from agriculture and aviation to maritime safety and architectural design. By understanding this scale, we can better prepare for and respond to the challenges posed by wind. Whether we are farmers, pilots, sailors, or engineers, knowledge of the scale of wind force enhances our ability to navigate the natural world safely and effectively.

理解塑造我们环境的自然力量对安全和科学探究至关重要。其中一种力量是风，其强度和影响可以大相径庭。风力等级是测量和分类风强度的一种系统方法。这个等级不仅是一个科学工具；它对气象学、航空、海事活动甚至建筑都有实际意义。最常用的风力测量系统是博福特等级，由弗朗西斯·博福特爵士在19世纪初开发。该等级从0到12，其中0表示平静状态，12表示飓风。风力等级的每一个级别都对应着对环境的特定可观察效应。例如，在第3级，即“轻风”时，树叶沙沙作响，小树枝会移动。相比之下，在第8级或“强风”时，整棵树可能会摇晃，走路变得困难。理解风力等级对各个行业至关重要。在农业中，农民必须考虑风力强度来规划种植和收获。强风可能会损坏作物并影响产量。同样，在航空领域，飞行员依靠准确的风力测量确保安全起飞和降落。风切变，即风速或方向的突然变化，可能在飞行中带来严重风险。因此，了解风力等级帮助飞行员做出明智的决策。海事作业也高度依赖于风的测量。水手和渔民使用风力等级来确定航行或捕鱼的最佳条件。了解风的强度可以防止事故，确保海上的安全。例如，强烈的强风可能会使一次简单的钓鱼之旅变成危及生命的情况。因此，理解风力等级对于任何在水上活动的人来说都是至关重要的。在建筑和建筑学中，工程师在设计建筑时必须考虑风载荷。结构必须能够承受各种风力，特别是在易遭受风暴的地区。风力等级为设计能够抵御强风而不影响安全的建筑提供了指导。这一点在沿海地区尤为重要，因为飓风可能会带来毁灭性的强风。此外，风力等级在气候科学中也扮演着重要角色。理解风模式随时间变化的方式可以帮助科学家预测天气事件并研究气候变化。例如，风强度和方向的变化可能会影响海洋洋流，而洋流又会影响全球温度和天气模式。通过研究风力等级，研究人员可以获得对这些复杂系统的深入了解。总之，风力等级不仅仅是一种测量；它是一个关键工具，影响着生活的各个方面，从农业和航空到海事安全和建筑设计。通过理解这一等级，我们可以更好地准备和应对风带来的挑战。无论我们是农民、飞行员、海员还是工程师，了解风力等级增强了我们安全有效地驾驭自然世界的能力。